Discovery Early Career Researcher Award - Grant ID: DE170100641
Funder
Australian Research Council
Funding Amount
$305,754.00
Summary
Priced attribute-based encryption and its applications. This project aims to develop Priced Attribute-Based Encryption (PABE), a security mechanism. Access control is important for secure online information access. Access to encrypted data requires both private key and payment from earmarked funds specified by the access policy of encrypted data. This research will enable both authorisation and restriction of users while they access protected data anonymously. Expected outcomes include new model ....Priced attribute-based encryption and its applications. This project aims to develop Priced Attribute-Based Encryption (PABE), a security mechanism. Access control is important for secure online information access. Access to encrypted data requires both private key and payment from earmarked funds specified by the access policy of encrypted data. This research will enable both authorisation and restriction of users while they access protected data anonymously. Expected outcomes include new models, theories, techniques and PABE constructions. This research project is expected to contribute to cyber security in anonymous access control with advanced management for all Australians.Read moreRead less
A Generic Software Architecture for Web-Based Applications on Micro-Mobile Systems. The next generation of computers that will capture the imagination of the society are likely to be micro-mobile devices such as personal digital assistants, mobile phones, smartcards and chips embedded in home and office items. Developing applications for information processing using a wireless network of such devices is an emerging challenge. This project will develop and evaluate a generic architecture for web- ....A Generic Software Architecture for Web-Based Applications on Micro-Mobile Systems. The next generation of computers that will capture the imagination of the society are likely to be micro-mobile devices such as personal digital assistants, mobile phones, smartcards and chips embedded in home and office items. Developing applications for information processing using a wireless network of such devices is an emerging challenge. This project will develop and evaluate a generic architecture for web-based applications on micro-mobile devices. This will make it easy to design applications that can seamlessly interact with different kinds of devices. The project will be carried out in partnership with Total Internet Centre, a Newcastle based regional enterprise.Read moreRead less
Special Research Initiatives - Grant ID: SR0567393
Funder
Australian Research Council
Funding Amount
$100,000.00
Summary
Infrastructure for large-scale data resource sharing between research institutions – an environmental case study. The project creates a federated distributed data infrastructure for research, that encourages data creators to make their data available to other scientists, and encourages users to make use of data available from many sources. The vision is to establish an ICT infrastructure to facilitate a whole-of-environment approach to environmental research. The outcome is a proof-of-concept ....Infrastructure for large-scale data resource sharing between research institutions – an environmental case study. The project creates a federated distributed data infrastructure for research, that encourages data creators to make their data available to other scientists, and encourages users to make use of data available from many sources. The vision is to establish an ICT infrastructure to facilitate a whole-of-environment approach to environmental research. The outcome is a proof-of-concept application based upon a case study of Queensland Environmental Protection Agency’s databases, to gain an in-depth understanding of the complexity, scope and key technological barriers for establishing an ICT infrastructure, to identify where the latest technologies can be used and where the gaps are for these technologies to be used in environmental sciences.Read moreRead less
Finding and exploiting interesting paths in multidimensional information spaces. This project will invent a new approach for searching within a large complex information space, finding interesting paths between points within the space, visualising the results, and supporting rich, human-centric user interaction with queries and results. This project will embody these techniques in a novel, internet-scale framework to support rapid development of large path search and visualisation applications. ....Finding and exploiting interesting paths in multidimensional information spaces. This project will invent a new approach for searching within a large complex information space, finding interesting paths between points within the space, visualising the results, and supporting rich, human-centric user interaction with queries and results. This project will embody these techniques in a novel, internet-scale framework to support rapid development of large path search and visualisation applications. Evaluation will be via development of several exemplar applications. The techniques and framework will be applicable to a broad range of economically important problems in areas as diverse as health, travel, scientific publication search, product marketing and software engineering.Read moreRead less
Novel Bioinformatics approaches for genetics and data linkage. The research project will involve creation of novel data and communications formats to fulfil the vital task of integrating the vast heterogeneous biological resources available. We will apply this new infrastructure to a large data linkage project. In parallel, we will undertake methodological research in informatics to design high throughput research methods and tools to analyse and visualise genetic data. These will be applied to ....Novel Bioinformatics approaches for genetics and data linkage. The research project will involve creation of novel data and communications formats to fulfil the vital task of integrating the vast heterogeneous biological resources available. We will apply this new infrastructure to a large data linkage project. In parallel, we will undertake methodological research in informatics to design high throughput research methods and tools to analyse and visualise genetic data. These will be applied to linkage disequilibrium mapping and haplotyping in human, animal and plant diseases. Improving informatics integration and designing novel methods and implementations of algorithms will be beneficial to local and international researchers in a range of fields.Read moreRead less
e-Hermes: Context-rich mobile agent technologies to support information needs of financial institutions. How do we achieve flexibility and efficiency of financial services in electronic commerce environment using mobile software agents? To address this question the project will extend a system architecture based on mobile agents, which retrieve, pre-process and deliver relevant information to potentially mobile users. Two major components - information processor and agent mission processor - wil ....e-Hermes: Context-rich mobile agent technologies to support information needs of financial institutions. How do we achieve flexibility and efficiency of financial services in electronic commerce environment using mobile software agents? To address this question the project will extend a system architecture based on mobile agents, which retrieve, pre-process and deliver relevant information to potentially mobile users. Two major components - information processor and agent mission processor - will be researched and developed by two PhD scholars to be supported by this application. The project results could be commercialised by the industry partner. The project is innovative in that it considers the emerging agent paradigm as an integrated distributed system in the e-commerce environment.Read moreRead less
Special Research Initiatives - Grant ID: SR0567417
Funder
Australian Research Council
Funding Amount
$124,442.00
Summary
eResearch Grid Environment for Integration of Distributed Kidney Models and Resources. We aim to produce a collaborative computing based approach to integrating and representing distributed renal models and resources that will enable researchers to gain access to and interact with the models and databases irrespective of format or location, permitting quantitative online exploration of new hypotheses within a variety of simulations. We will develop a portal providing an interactive 3D visualisat ....eResearch Grid Environment for Integration of Distributed Kidney Models and Resources. We aim to produce a collaborative computing based approach to integrating and representing distributed renal models and resources that will enable researchers to gain access to and interact with the models and databases irrespective of format or location, permitting quantitative online exploration of new hypotheses within a variety of simulations. We will develop a portal providing an interactive 3D visualisation of the kidney as a user interface to a collection of distributed published models and extracted resources at all levels of renal physiology. The models will be hosted in France, New Zealand, Australia and the USA and be made available internationally to client users using Grid-based distributed computing systems.
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Visual analytics for massive multivariate networks. Visual analytics for massive multivariate networks. This project aims to create methods to visually analyse massive multivariate networks. The amount of network data available has exploded in recent years: software systems, social networks and biological systems have millions of nodes and billions of edges with multivariate attributes. Their size and complexity makes these data sets hard to exploit. More efficient ways to understand the data ar ....Visual analytics for massive multivariate networks. Visual analytics for massive multivariate networks. This project aims to create methods to visually analyse massive multivariate networks. The amount of network data available has exploded in recent years: software systems, social networks and biological systems have millions of nodes and billions of edges with multivariate attributes. Their size and complexity makes these data sets hard to exploit. More efficient ways to understand the data are needed. This project will design, implement and evaluate visualisation methods for massive multivariate network data sets. This research is expected to be used by Australian software development, biotechnology and security companies to exploit their data.Read moreRead less