Privacy-preserving cloud data mining-as-a-service. This project aims to explore practical privacy-preserving solutions for cloud data mining-as-a-service based on the Intel Software Guard Extensions (SGX) technology. The research addresses privacy concerns of users when outsourcing data mining needs to the cloud. These concerns have increased as more businesses evaluate data mining-as-an outsourced service due to lack of expertise or computation resources. The expected outcomes from the research ....Privacy-preserving cloud data mining-as-a-service. This project aims to explore practical privacy-preserving solutions for cloud data mining-as-a-service based on the Intel Software Guard Extensions (SGX) technology. The research addresses privacy concerns of users when outsourcing data mining needs to the cloud. These concerns have increased as more businesses evaluate data mining-as-an outsourced service due to lack of expertise or computation resources. The expected outcomes from the research will include new data privacy models, new privacy-preserving data mining algorithms, and a prototype of cloud data mining software. These will help businesses cut costs for data mining and privacy protection, and provide significant benefits toward helping Australia achieve its national cyber security strategy and potentially provide economic impact from commercialisation of new software technology for the industry partner.Read moreRead less
Use of Interval Arithmetic and GRID Computing in Computational Molecular Science: Bounding Errors and Locating Global Minima. Catastrophic failure of the Ariane 5 rocket in 1996 and the inability of Patriot missile systems to reach their targets during the 1991 Gulf war were both attributed to numerical computing errors. Less dramatic, but in a similar vein, this project aims to study the numerical stability of contemporary computational molecular science applications. The focus will be on linea ....Use of Interval Arithmetic and GRID Computing in Computational Molecular Science: Bounding Errors and Locating Global Minima. Catastrophic failure of the Ariane 5 rocket in 1996 and the inability of Patriot missile systems to reach their targets during the 1991 Gulf war were both attributed to numerical computing errors. Less dramatic, but in a similar vein, this project aims to study the numerical stability of contemporary computational molecular science applications. The focus will be on linear scaling electronic structure codes, methods that are critical to the study of nano- and bio-materials, and are therefore of great importance to our economic future and medical well being. The project will build expertise within Australia in the area of interval arithmetic, an area that is currently poorly represented.Read moreRead less
Model-Based Approach to Adaptive Channel Coding and Estimation for Future Wireless Communication Systems. The project aims to maximise capacity, data rate and user mobility in wireless communication systems and will advance Australia's fundamental knowledge base in this field so that it stays at the forefront of international research in mobile communications. The application of research outcomes by the Australian telecommunications industry will improve the extent and quality of mobile networks ....Model-Based Approach to Adaptive Channel Coding and Estimation for Future Wireless Communication Systems. The project aims to maximise capacity, data rate and user mobility in wireless communication systems and will advance Australia's fundamental knowledge base in this field so that it stays at the forefront of international research in mobile communications. The application of research outcomes by the Australian telecommunications industry will improve the extent and quality of mobile networks, increasing network capacity and the number of mobile phone subscribers in Australia. This project will also optimise the use of mobile network resources (such as bandwidth and power) in next generation mobile networks, which in turn will result in faster and more reliable services such as wireless Internet access for business and private use.Read moreRead less
Reliable Communication in Wireless Cooperative Networks under Channel Uncertainty. The project addresses important problems in Breakthrough sciences and Frontier technologies within the national priority goals. It provides innovative solutions for wireless information technologies. The project's high-impact contributions will advance Australia’s knowledge base and publication of outcomes will elevate and maintain Australia's existing reputation in the field. The project provides 1) high-quality ....Reliable Communication in Wireless Cooperative Networks under Channel Uncertainty. The project addresses important problems in Breakthrough sciences and Frontier technologies within the national priority goals. It provides innovative solutions for wireless information technologies. The project's high-impact contributions will advance Australia’s knowledge base and publication of outcomes will elevate and maintain Australia's existing reputation in the field. The project provides 1) high-quality training for postgraduate students and 2) opportunities for collaborations with a prominent international partner investigator. The innovative solutions will address the ever-increasing demand for high-speed wireless Internet and multimedia.Read moreRead less
Credential Systems and Their Applications in Securing Electronic Health Records. The expected result of this project will be frontier technologies that are essential in applications and services, whose acceptance and take-up will depend on users' assurance of their security in the cyber world. In particular, a service such as the EHR system, which is known to be a complex system, requires the use of new and innovative credential-based systems. The result will also contribute to maintaining Austr ....Credential Systems and Their Applications in Securing Electronic Health Records. The expected result of this project will be frontier technologies that are essential in applications and services, whose acceptance and take-up will depend on users' assurance of their security in the cyber world. In particular, a service such as the EHR system, which is known to be a complex system, requires the use of new and innovative credential-based systems. The result will also contribute to maintaining Australia's leading position in the telecommunication and information technology industries, which has been recognised by increased government funding levels. The resulting applications of this project will place Australia as the first country able to design and implement a secure EHR system.Read moreRead less
Structures and Protocols for Inference. The proposed research is expected to lead to increased adoption and efficiency of use of machine learning technologies. It will develop new and better ways to use existing machine learning software in a manner that allows easier integration into commercial products. It will increase the competitiveness of Australian industry.
Development Of Australian Rural Research-in-progress Database REFER 93/250
Funder
Fisheries Research and Development Corporation
Funding Amount
$9,640.00
Summary
Objectives: 1. Update & expand the "Australian Rural Research in Progress" database to include all publicly funded rural research. 2. Promote to encourage use on-line, via CSIRONET, by research workers, research managers, administrators and research organisations
Australian Fisheries Management Forum Data And Digital Sharing Working Group Digital Strategy
Funder
Fisheries Research and Development Corporation
Funding Amount
$40,000.00
Summary
The project application is based on the findings of the recent survey of Australian fisheries jurisdictions commissioned by the AFMF regarding current and possible future use of industry digital systems. It is also an outcome of the combined expertise of the members of the AFMF Digital and Data Working group developing and using digital fisheries technologies including vessel monitoring systems (VMS), electronic logbooks (E-logs), on-line quota trading and electronic monitoring (E-monitoring).The project application is based on the findings of the recent survey of Australian fisheries jurisdictions commissioned by the AFMF regarding current and possible future use of industry digital systems. It is also an outcome of the combined expertise of the members of the AFMF Digital and Data Working group developing and using digital fisheries technologies including vessel monitoring systems (VMS), electronic logbooks (E-logs), on-line quota trading and electronic monitoring (E-monitoring).
The project will develop a national fisheries digital strategy that considers the use of digital technologies, data sharing and data governance as they relate to government fisheries agencies, fishing industry sectors and eNGOs with an interest in fisheries. It will consider past initiatives, the current state of the industry and future directions.
More than Machines will initially use the findings of the Current & Future Digital Data Systems in Australian Fisheries survey as a basis for the development of the digital strategy and rely heavily on Fishery and industry stakeholder consultation and co-creation to further develop the Fisheries digital strategy and to achieve the desired future ready outcomes. While the strategy will be designed to guide Fisheries it is acknowledged that the ultimate customers are the industry stakeholders so their consultation is essential.
The project will consider the current state of digitisation of the Australian Fisheries industries, current activities as well as Fisheries and industry projects already underway to put forward investment priorities, activities and the principles against which opportunities may be evaluated. While the content of the strategy will be driven by consultation, the strategy will ensure outcomes that enable and promote:
Collaboration and Interoperability Acknowledging and further understanding current challenges with sharing data within Fisheries and between Fisheries and their industries, the strategy will consider whole of sector approaches to data sharing, API development, fishery data platforms, specifications and investments that encourage interoperability and build trust sharing and leveraging data between fisheries, within supply chains, between industry organisations, with industry statutory bodies and with government.
Standards and Governance Through stakeholder consultation the strategy will prioritise and provide strategic alignment for the development of enabling Australian fisheries digital standards for data that also consider the needs and requirements for working within global markets. This will include consideration of a national fisheries digital governance framework aimed at building trust and providing the policies and procedures for data management that will provide consistency of use, security and quality of data to build data owner trust across the sector.
Development of enabling platforms. The strategy will consider the opportunities for fishery collaboration to develop core enabling digital infrastructure. This will be approached through the lens of understanding fisheries requirements, identifying commonalities and providing common investment opportunities. Additionally, ongoing initiatives currently underway across Australian Agriculture such as the Australian Agrifood Data Exchange data sharing platform will be considered and proposed where relevant.
Improved efficiencies, removing duplication, optimised use of available funding. The development of the strategy will include consideration of projects already in flight and opportunities to remove current areas of duplication as well as specifically providing future investment priorities that will de-duplicate effort and optimise the use of available funding to force multiply outcomes across fisheries.
Digital Capability Finally the development of overall digital capability across fisheries will be considered to ensure the workforce is prepared for and capable of intrinsically using digital technologies, identifying opportunities and business cases for the adoption of digital technology and able to receive the benefits that digital technologies can provide. The strategy will consider the investment priorities and partnerships that will need to be developed to achieve this.
It is intended that the strategy is endorsed by the AFMF Digital and Data Working group and AFMF stakeholders. The strategy will be a core Fisheries document, guiding jurisdictional collaboration, priorities and investment across industry and government to force multiply effort and provide a step change in digital adoption across Australian Fisheries. The project will develop a national fisheries digital strategy that considers the use of digital technologies as they relate to government fisheries agencies, fishing industry sectors and eNGOs with an interest in fisheries. It will consider past initiatives, the current state of the industry and future directions. Objectives: 1. Determine position: Validate and expand on the recommendations of the FutureCatch Consulting survey to define the priorities of the Digital Strategy through consultation and co-creation. 2. Development: Curate and set priorities from consultation process gaining endorsement from he AFMF Digital and Data Working Group and AFMF members. 3. Plan: Identify KPIs and iteratively collaborate with the AFMF Working Group to develop the final draft of the strategy. 4. Manage Performance: Finalise the strategy and receive approval from the AFMF Working Group and AFMF stakeholders for publication. 5. Monitor: Develop a progress and performance reporting approach for future performance management. Read moreRead less
Development And Implementation Of A National Standard For A Recreational Fisheries Database By All Fisheries Agencies Cancelled, Now 95/054
Funder
Fisheries Research and Development Corporation
Summary
Objectives: 1. To provide the tool to facilitate the build up of an on-going national information base 2. To ensure the database meets the standards set by the Fisheries Statistical Working Group 3. To ensure the database can be integrated with commercial catch and effort databases
Objectives: 1. To assess the feasibility of capturing live SBT in a state from which they can survive under agistment conditions 2. To grow out SBT in pontoons in the Port Lincoln area to assess: growth rates, total and in specivic period, feed conversion ratios, preferred feeds 3. To assess the influence of the SBT grow out on the environment with water quality testing by the SA Government 4. To assess the quality and market acceptance of farmed SBT 5. To provide an ....Objectives: 1. To assess the feasibility of capturing live SBT in a state from which they can survive under agistment conditions 2. To grow out SBT in pontoons in the Port Lincoln area to assess: growth rates, total and in specivic period, feed conversion ratios, preferred feeds 3. To assess the influence of the SBT grow out on the environment with water quality testing by the SA Government 4. To assess the quality and market acceptance of farmed SBT 5. To provide an example for other pontoon culturing or farming in Australia 6. To examine the possibility of breeding SBT 7. To provide a basis for sustainable biological research (eg Otoliths) Read moreRead less