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This project aims to investigate whether burning of some widely used agricultural pesticides, especially in fires, can account for the observed discrepancy between the emission and deposition fluxes of PCDD/F. We intend to undertake a comprehensive and detailed study of decomposition mechanisms of chlorinated herbicides and insecticides into PCDD/F, both from experimental and theoretical perspectives, in conjunction with field measurements. The results of this project will assist the selection and further development of pesticides suitable for Australian agriculture.", "dc:identifier": "DP0988907", "grant_number": "DP0988907" } , { "result-metadata": { "relevance": 0.07723723, "all": {"storage_id":"b8890db6361eeba9b02c655067d3a7b1","id":"b8890db6361eeba9b02c655067d3a7b1","last_modified":"2024-01-29T01:52:47Z","dc_title":"Improved design and control of brushless doubly-fed reluctance machine generators for wind power applications","autocomplete_title":"Improved design and control of brushless doubly-fed reluctance machine generators for wind power applications","harvest_config":"d5d827c19d38bbb43ce6d4b448153ef1","harvest_rules":"96893c00809deeb167ba94aea970f350","autocomplete_grant_number":"DP1096356","display_type":"research_activities","security_filter":["guest"],"dc_date":["2010"],"repository_name":["ARC NGCP New and Ongoing Projects"],"oai_set":["Activities"],"packageType":["Activities"],"dc_format":["application\/x-mint-research-activity"],"dc_subject":["NSW"],"dc_description":["The Brushless Doubly-Fed Reluctance Machine (BDFRM) is a potential replacement for the Double Fed Induction Generator (DFIG) in wind energy applications. The BDFRM is a brushless machine with two conventional windings on the stator and no current flowing in the rotor. This configuration means that the machine is more robust, requires less maintenance, and is potentially more efficient compared to the DFIG. The research proposed in this project will investigate how to design the BDFRM so that it can be competitive with the DFIG with respect to the power\/torque per volume. It will also investigate the performance of the BDFRM in wind power applications, especially with respect to its performance during grid fault conditions."],"grant_number":["DP1096356"],"dc_identifier":["DP1096356"],"ID":["DP1096356"],"foaf_name":["The University of Newcastle"],"dc_date_submitted":["2009"],"repository_type":["Research Activities"],"harvestId":["DP1096356"],"score":0.07723723} }, "rdf:about": "https://demo.redboxresearchdata.com.au/mint/Activities/detail/b8890db6361eeba9b02c655067d3a7b1", "rdfs:type": ["owl:Thing"], "rdfs:label": "Improved design and control of brushless doubly-fed reluctance machine generators for wind power applications", "dc:title": "Improved design and control of brushless doubly-fed reluctance machine generators for wind power applications", "dc:description": "The Brushless Doubly-Fed Reluctance Machine (BDFRM) is a potential replacement for the Double Fed Induction Generator (DFIG) in wind energy applications. The BDFRM is a brushless machine with two conventional windings on the stator and no current flowing in the rotor. This configuration means that the machine is more robust, requires less maintenance, and is potentially more efficient compared to the DFIG. The research proposed in this project will investigate how to design the BDFRM so that it can be competitive with the DFIG with respect to the power/torque per volume. It will also investigate the performance of the BDFRM in wind power applications, especially with respect to its performance during grid fault conditions.", "dc:identifier": "DP1096356", "grant_number": "DP1096356" } , { "result-metadata": { "relevance": 0.07723723, "all": {"storage_id":"8329bcc84aa76f488d02d77365d8caf6","id":"8329bcc84aa76f488d02d77365d8caf6","last_modified":"2024-01-29T01:52:48Z","dc_title":"Isaac Newton's Temple of Solomon and his analysis of sacred architecture: An interpretation and discussion of Babson Manuscript 0434","autocomplete_title":"Isaac Newton's Temple of Solomon and his analysis of sacred architecture: An interpretation and discussion of Babson Manuscript 0434","harvest_config":"d5d827c19d38bbb43ce6d4b448153ef1","harvest_rules":"96893c00809deeb167ba94aea970f350","autocomplete_grant_number":"DP0878706","display_type":"research_activities","security_filter":["guest"],"dc_date":["2008"],"repository_name":["ARC NGCP New and Ongoing Projects"],"oai_set":["Activities"],"packageType":["Activities"],"dc_format":["application\/x-mint-research-activity"],"dc_subject":["NSW"],"dc_description":["Babson Manuscript 0434 on Solomon's temple was written by Isaac Newton in c1680. It is written in four languages; English, Latin, Greek and Hebrew. The project aims are: (1) to examine the sources of the manuscript (2) analyse how the manuscript compares or contrasts to the wealth of literature of Solomon's temple (3) to examine Newton's work on the ancient measurements (4) undertake a graphical computational analysis of Newton's reconstruction and place it into an architectural context (5) to place Babson MS 0434 into context in the search for the origins of architecture of the 17th and 18th century. The outcomes include the first translation and analysis of this significant work and it will be an advance in Newtonian scholarship. 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The project aims are: (1) to examine the sources of the manuscript (2) analyse how the manuscript compares or contrasts to the wealth of literature of Solomon's temple (3) to examine Newton's work on the ancient measurements (4) undertake a graphical computational analysis of Newton's reconstruction and place it into an architectural context (5) to place Babson MS 0434 into context in the search for the origins of architecture of the 17th and 18th century. The outcomes include the first translation and analysis of this significant work and it will be an advance in Newtonian scholarship.", "dc:identifier": "DP0878706", "grant_number": "DP0878706" } , { "result-metadata": { "relevance": 0.07723723, "all": {"storage_id":"3fd35f3dc6c6cd2141d8558b35f49691","id":"3fd35f3dc6c6cd2141d8558b35f49691","last_modified":"2024-01-29T01:52:47Z","dc_title":"Modelling and predicting patterns of pedestrian movement: using robotics and machine learning to improve the design of urban space.","autocomplete_title":"Modelling and predicting patterns of pedestrian movement: using robotics and machine learning to improve the design of urban space.","harvest_config":"d5d827c19d38bbb43ce6d4b448153ef1","harvest_rules":"96893c00809deeb167ba94aea970f350","autocomplete_grant_number":"DP1092679","display_type":"research_activities","security_filter":["guest"],"dc_date":["2010"],"repository_name":["ARC NGCP New and Ongoing Projects"],"oai_set":["Activities"],"packageType":["Activities"],"dc_format":["application\/x-mint-research-activity"],"dc_subject":["NSW"],"dc_description":["The built environment is a major contributor to the cultural and social wellbeing of Australia. Its success depends on the ability of designers to shape public spaces that can accommodate increasingly complex patterns of use. In dense urban centres across Australasia, a significant problem for the architect involves predicting and shaping the behaviour of pedestrians, commuters and crowds.\n\nComputer technology developed for the robotics industry provides a previously unavailable tool for researching, identifying, tracking and predicting the behaviour of pedestrians. This project will assist designers, town planners and policy writers to shape rich, responsive and inclusive architectural environments."],"grant_number":["DP1092679"],"dc_identifier":["DP1092679"],"ID":["DP1092679"],"foaf_name":["The University of Newcastle"],"dc_date_submitted":["2009"],"repository_type":["Research Activities"],"harvestId":["DP1092679"],"score":0.07723723} }, "rdf:about": "https://demo.redboxresearchdata.com.au/mint/Activities/detail/3fd35f3dc6c6cd2141d8558b35f49691", "rdfs:type": ["owl:Thing"], "rdfs:label": "Modelling and predicting patterns of pedestrian movement: using robotics and machine learning to improve the design of urban space.", "dc:title": "Modelling and predicting patterns of pedestrian movement: using robotics and machine learning to improve the design of urban space.", "dc:description": "The built environment is a major contributor to the cultural and social wellbeing of Australia. Its success depends on the ability of designers to shape public spaces that can accommodate increasingly complex patterns of use. In dense urban centres across Australasia, a significant problem for the architect involves predicting and shaping the behaviour of pedestrians, commuters and crowds.Computer technology developed for the robotics industry provides a previously unavailable tool for researching, identifying, tracking and predicting the behaviour of pedestrians. This project will assist designers, town planners and policy writers to shape rich, responsive and inclusive architectural environments.", "dc:identifier": "DP1092679", "grant_number": "DP1092679" } , { "result-metadata": { "relevance": 0.07723723, "all": {"storage_id":"aaec1afca9457f216fda7f68654817a8","id":"aaec1afca9457f216fda7f68654817a8","last_modified":"2024-01-29T01:52:47Z","dc_title":"New Model Predictive Control Design Methods","autocomplete_title":"New Model Predictive Control Design Methods","harvest_config":"d5d827c19d38bbb43ce6d4b448153ef1","harvest_rules":"96893c00809deeb167ba94aea970f350","autocomplete_grant_number":"DP1095645","display_type":"research_activities","security_filter":["guest"],"dc_date":["2010"],"repository_name":["ARC NGCP New and Ongoing Projects"],"oai_set":["Activities"],"packageType":["Activities"],"dc_format":["application\/x-mint-research-activity"],"dc_subject":["NSW"],"dc_description":["The efficient, safe, environmentally sound and profitable operation of most engineered systems depend on being automatically computer controlled. Unfortunately, due to the difficulty of implementing advanced methods, most control designs achieve much less than optimal performance. This project will work towards solving this problem using the advanced class of Model Predictive Control methods. While attracting very high international attention due to their potential, their use has been restricted due to design and implementation difficulties. By providing solutions to these problems, a capability for more widespread use of high performance control will be achieved."],"grant_number":["DP1095645"],"dc_identifier":["DP1095645"],"ID":["DP1095645"],"foaf_name":["The University of Newcastle"],"dc_date_submitted":["2009"],"repository_type":["Research Activities"],"harvestId":["DP1095645"],"score":0.07723723} }, "rdf:about": "https://demo.redboxresearchdata.com.au/mint/Activities/detail/aaec1afca9457f216fda7f68654817a8", "rdfs:type": ["owl:Thing"], "rdfs:label": "New Model Predictive Control Design Methods", "dc:title": "New Model Predictive Control Design Methods", "dc:description": "The efficient, safe, environmentally sound and profitable operation of most engineered systems depend on being automatically computer controlled. Unfortunately, due to the difficulty of implementing advanced methods, most control designs achieve much less than optimal performance. This project will work towards solving this problem using the advanced class of Model Predictive Control methods. While attracting very high international attention due to their potential, their use has been restricted due to design and implementation difficulties. By providing solutions to these problems, a capability for more widespread use of high performance control will be achieved.", "dc:identifier": "DP1095645", "grant_number": "DP1095645" } , { "result-metadata": { "relevance": 0.07723723, "all": {"storage_id":"de7347e175079012201cd8f537210548","id":"de7347e175079012201cd8f537210548","last_modified":"2024-01-29T01:52:48Z","dc_title":"New drives and control techniques for high performance piezoelectric actuation","autocomplete_title":"New drives and control techniques for high performance piezoelectric actuation","harvest_config":"d5d827c19d38bbb43ce6d4b448153ef1","harvest_rules":"96893c00809deeb167ba94aea970f350","autocomplete_grant_number":"DP0986319","display_type":"research_activities","security_filter":["guest"],"dc_date":["2009"],"repository_name":["ARC NGCP New and Ongoing Projects"],"oai_set":["Activities"],"packageType":["Activities"],"dc_format":["application\/x-mint-research-activity"],"dc_subject":["NSW"],"dc_description":["Piezoelectric actuators develop the greatest forces and most precise motion of any known actuator. They are also compact in size, mechanically simple and extremely fast. Many scientific and industrial applications stand to benefit from the unique characteristics of piezoelectric actuators. However, due to non-linearity and bandwidth limitations, their exceptional properties cannot presently be utilized in practice.\n\n\n\nThis project aims to eliminate or reduce the foremost limitations of piezoelectric actuators, namely: hysteresis, creep, temperature dependence, actuator resonance and dynamics. New modelling and drive techniques are proposed to achieve these goals without additional hardware or complexity."],"grant_number":["DP0986319"],"dc_identifier":["DP0986319"],"ID":["DP0986319"],"foaf_name":["The University of Newcastle"],"dc_date_submitted":["2008"],"repository_type":["Research Activities"],"harvestId":["DP0986319"],"score":0.07723723} }, "rdf:about": "https://demo.redboxresearchdata.com.au/mint/Activities/detail/de7347e175079012201cd8f537210548", "rdfs:type": ["owl:Thing"], "rdfs:label": "New drives and control techniques for high performance piezoelectric actuation", "dc:title": "New drives and control techniques for high performance piezoelectric actuation", "dc:description": "Piezoelectric actuators develop the greatest forces and most precise motion of any known actuator. They are also compact in size, mechanically simple and extremely fast. Many scientific and industrial applications stand to benefit from the unique characteristics of piezoelectric actuators. However, due to non-linearity and bandwidth limitations, their exceptional properties cannot presently be utilized in practice.This project aims to eliminate or reduce the foremost limitations of piezoelectric actuators, namely: hysteresis, creep, temperature dependence, actuator resonance and dynamics. New modelling and drive techniques are proposed to achieve these goals without additional hardware or complexity.", "dc:identifier": "DP0986319", "grant_number": "DP0986319" } , { "result-metadata": { "relevance": 0.07723723, "all": {"storage_id":"7b4127b61bfc68ebf6cb338f381ff92d","id":"7b4127b61bfc68ebf6cb338f381ff92d","last_modified":"2024-01-29T01:52:47Z","dc_title":"Novel time-frequency techniques for analysing and modeling non-stationary physical and engineering data","autocomplete_title":"Novel time-frequency techniques for analysing and modeling non-stationary physical and engineering data","harvest_config":"d5d827c19d38bbb43ce6d4b448153ef1","harvest_rules":"96893c00809deeb167ba94aea970f350","autocomplete_grant_number":"DP0986391","display_type":"research_activities","security_filter":["guest"],"dc_date":["2009"],"repository_name":["ARC NGCP New and Ongoing Projects"],"oai_set":["Activities"],"packageType":["Activities"],"dc_format":["application\/x-mint-research-activity"],"dc_subject":["NSW"],"dc_description":["This project aims at developing tools for analysing and modeling nonstationary time-series in the physical sciences and engineering. Our unconventional point of view that time-frequency distributions are distributions of coherence over time and frequency, as opposed to the common view of \"time-varying power distributions\", enables us to establish a close connection between time-frequency analysis and rotary-component and polarisation analysis. This will lead to a cross-fertilisation between techniques used in geography, oceanography, meteorology, optics, and signal processing, thus creating new tools to classify and detect features of nonstationary data that were unrecognisable using conventional methods."],"grant_number":["DP0986391"],"dc_identifier":["DP0986391"],"ID":["DP0986391"],"foaf_name":["The University of Newcastle"],"dc_date_submitted":["2008"],"repository_type":["Research Activities"],"harvestId":["DP0986391"],"score":0.07723723} }, "rdf:about": "https://demo.redboxresearchdata.com.au/mint/Activities/detail/7b4127b61bfc68ebf6cb338f381ff92d", "rdfs:type": ["owl:Thing"], "rdfs:label": "Novel time-frequency techniques for analysing and modeling non-stationary physical and engineering data", "dc:title": "Novel time-frequency techniques for analysing and modeling non-stationary physical and engineering data", "dc:description": "This project aims at developing tools for analysing and modeling nonstationary time-series in the physical sciences and engineering. Our unconventional point of view that time-frequency distributions are distributions of coherence over time and frequency, as opposed to the common view of 'time-varying power distributions', enables us to establish a close connection between time-frequency analysis and rotary-component and polarisation analysis. This will lead to a cross-fertilisation between techniques used in geography, oceanography, meteorology, optics, and signal processing, thus creating new tools to classify and detect features of nonstationary data that were unrecognisable using conventional methods.", "dc:identifier": "DP0986391", "grant_number": "DP0986391" } , { "result-metadata": { "relevance": 0.07723723, "all": {"storage_id":"8c171bfa4445d8e81d070f2c2659ba69","id":"8c171bfa4445d8e81d070f2c2659ba69","last_modified":"2024-01-29T01:52:49Z","dc_title":"Passive Control of Dust Emissions from Belt Conveyor Systems","autocomplete_title":"Passive Control of Dust Emissions from Belt Conveyor Systems","harvest_config":"d5d827c19d38bbb43ce6d4b448153ef1","harvest_rules":"96893c00809deeb167ba94aea970f350","autocomplete_grant_number":"DP0881154","display_type":"research_activities","security_filter":["guest"],"dc_date":["2008"],"repository_name":["ARC NGCP New and Ongoing Projects"],"oai_set":["Activities"],"packageType":["Activities"],"dc_format":["application\/x-mint-research-activity"],"dc_subject":["NSW"],"dc_description":["The high efficiency and throughput of belt conveyor systems have led to their widespread use in many industries, including mining, Australia's largest export sector. Given the increasing demand for Australian minerals and stringent environmental and occupational health and safety standards, the control of dust is a matter of high importance. This project aims to reduce dust emissions from belt conveyors by developing passive dust control technology. Our approach is to integrate granular continuum and computational fluid dynamics models to analyse bulk material and entrained air flow during conveying. This research will lead to significant improvements to belt conveyors, resulting in substantial benefits for our most valued industries."],"grant_number":["DP0881154"],"dc_identifier":["DP0881154"],"ID":["DP0881154"],"foaf_name":["The University of Newcastle"],"dc_date_submitted":["2007"],"repository_type":["Research Activities"],"harvestId":["DP0881154"],"score":0.07723723} }, "rdf:about": "https://demo.redboxresearchdata.com.au/mint/Activities/detail/8c171bfa4445d8e81d070f2c2659ba69", "rdfs:type": ["owl:Thing"], "rdfs:label": "Passive Control of Dust Emissions from Belt Conveyor Systems", "dc:title": "Passive Control of Dust Emissions from Belt Conveyor Systems", "dc:description": "The high efficiency and throughput of belt conveyor systems have led to their widespread use in many industries, including mining, Australia's largest export sector. Given the increasing demand for Australian minerals and stringent environmental and occupational health and safety standards, the control of dust is a matter of high importance. This project aims to reduce dust emissions from belt conveyors by developing passive dust control technology. Our approach is to integrate granular continuum and computational fluid dynamics models to analyse bulk material and entrained air flow during conveying. This research will lead to significant improvements to belt conveyors, resulting in substantial benefits for our most valued industries.", "dc:identifier": "DP0881154", "grant_number": "DP0881154" } , { "result-metadata": { "relevance": 0.07723723, "all": {"storage_id":"11222c2ed535800c6763a68501546eea","id":"11222c2ed535800c6763a68501546eea","last_modified":"2024-01-29T01:52:47Z","dc_title":"Recomputing the canon: using computational methods to develop an alternative understanding of the history of 20th century architecture","autocomplete_title":"Recomputing the canon: using computational methods to develop an alternative understanding of the history of 20th century architecture","harvest_config":"d5d827c19d38bbb43ce6d4b448153ef1","harvest_rules":"96893c00809deeb167ba94aea970f350","autocomplete_grant_number":"DP1094154","display_type":"research_activities","security_filter":["guest"],"dc_date":["2010"],"repository_name":["ARC NGCP New and Ongoing Projects"],"oai_set":["Activities"],"packageType":["Activities"],"dc_format":["application\/x-mint-research-activity"],"dc_subject":["NSW"],"dc_description":["Architectural history has been recorded, constructed and debated over time by historians and theorists of the built environment. The methods they have used to construct the canon may have been refined but are still essentially the same as those of the last two centuries. However, advanced computational methods now exist which are capable of producing alternative, mathematical and geometric interpretations, of the formal, social and cultural qualities of historic buildings. The present research project applies state-of-the-art developments in computational analysis to uncover a parallel history of 20th century architecture and to promote a major conceptual shift in architectural thinking."],"grant_number":["DP1094154"],"dc_identifier":["DP1094154"],"ID":["DP1094154"],"foaf_name":["The University of Newcastle"],"dc_date_submitted":["2009"],"repository_type":["Research Activities"],"harvestId":["DP1094154"],"score":0.07723723} }, "rdf:about": "https://demo.redboxresearchdata.com.au/mint/Activities/detail/11222c2ed535800c6763a68501546eea", "rdfs:type": ["owl:Thing"], "rdfs:label": "Recomputing the canon: using computational methods to develop an alternative understanding of the history of 20th century architecture", "dc:title": "Recomputing the canon: using computational methods to develop an alternative understanding of the history of 20th century architecture", "dc:description": "Architectural history has been recorded, constructed and debated over time by historians and theorists of the built environment. The methods they have used to construct the canon may have been refined but are still essentially the same as those of the last two centuries. However, advanced computational methods now exist which are capable of producing alternative, mathematical and geometric interpretations, of the formal, social and cultural qualities of historic buildings. The present research project applies state-of-the-art developments in computational analysis to uncover a parallel history of 20th century architecture and to promote a major conceptual shift in architectural thinking.", "dc:identifier": "DP1094154", "grant_number": "DP1094154" } , { "result-metadata": { "relevance": 0.07723723, "all": {"storage_id":"83b5313f15e439cdd8732d3f28b510da","id":"83b5313f15e439cdd8732d3f28b510da","last_modified":"2024-01-29T01:52:47Z","dc_title":"Remaining life estimation for existing deteriorating reinforced concrete infrastructure","autocomplete_title":"Remaining life estimation for existing deteriorating reinforced concrete infrastructure","harvest_config":"d5d827c19d38bbb43ce6d4b448153ef1","harvest_rules":"96893c00809deeb167ba94aea970f350","autocomplete_grant_number":"DP1093787","display_type":"research_activities","security_filter":["guest"],"dc_date":["2010"],"repository_name":["ARC NGCP New and Ongoing Projects"],"oai_set":["Activities"],"packageType":["Activities"],"dc_format":["application\/x-mint-research-activity"],"dc_subject":["NSW"],"dc_description":["The project will develop improved techniques for estimating the remaining life of existing infrastructure that is known to be, or likely to be, deteriorating. The focus is reinforced concrete structures exposed to harsh, salt-laden environments. These include structures in marine coastal locations such as jetties, piers, road and railway bridges, harbour and port structures, buildings, etc. New techniques will be used to develop stochastic reinforcement corrosion models and methods for incorporating on-site inspections and testing to improve predictions of future performance and structural reliability. The outcomes will enhance the accuracy of service life predictions for existing infrastructure."],"grant_number":["DP1093787"],"dc_identifier":["DP1093787"],"ID":["DP1093787"],"foaf_name":["The University of Newcastle"],"dc_date_submitted":["2009"],"repository_type":["Research Activities"],"harvestId":["DP1093787"],"score":0.07723723} }, "rdf:about": "https://demo.redboxresearchdata.com.au/mint/Activities/detail/83b5313f15e439cdd8732d3f28b510da", "rdfs:type": ["owl:Thing"], "rdfs:label": "Remaining life estimation for existing deteriorating reinforced concrete infrastructure", "dc:title": "Remaining life estimation for existing deteriorating reinforced concrete infrastructure", "dc:description": "The project will develop improved techniques for estimating the remaining life of existing infrastructure that is known to be, or likely to be, deteriorating. The focus is reinforced concrete structures exposed to harsh, salt-laden environments. These include structures in marine coastal locations such as jetties, piers, road and railway bridges, harbour and port structures, buildings, etc. New techniques will be used to develop stochastic reinforcement corrosion models and methods for incorporating on-site inspections and testing to improve predictions of future performance and structural reliability. The outcomes will enhance the accuracy of service life predictions for existing infrastructure.", "dc:identifier": "DP1093787", "grant_number": "DP1093787" } , { "result-metadata": { "relevance": 0.07723723, "all": {"storage_id":"370b6786d85069d397a50fbc7cd2fb8f","id":"370b6786d85069d397a50fbc7cd2fb8f","last_modified":"2024-01-29T01:52:47Z","dc_title":"Robust Dynamical System Identification","autocomplete_title":"Robust Dynamical System Identification","harvest_config":"d5d827c19d38bbb43ce6d4b448153ef1","harvest_rules":"96893c00809deeb167ba94aea970f350","autocomplete_grant_number":"DP1095123","display_type":"research_activities","security_filter":["guest"],"dc_date":["2010"],"repository_name":["ARC NGCP New and Ongoing Projects"],"oai_set":["Activities"],"packageType":["Activities"],"dc_format":["application\/x-mint-research-activity"],"dc_subject":["NSW"],"dc_description":["System identification is a pivotal component of any investigation that involves the estimation of unknown parameters of a given system. The overall goal of system identification is to obtain a mathematical model of the process under study using measurements, or observations, of the processes' inputs and outputs. This project is aimed at the development of new robust system identification methodologies and algorithms specifically targeted towards the identification of models for dynamical systems. The term robust is used here with respect to the initial errors in the hypothesis and the resulting errors in the estimates of the dynamical system."],"grant_number":["DP1095123"],"dc_identifier":["DP1095123"],"ID":["DP1095123"],"foaf_name":["The University of Newcastle"],"dc_date_submitted":["2009"],"repository_type":["Research Activities"],"harvestId":["DP1095123"],"score":0.07723723} }, "rdf:about": "https://demo.redboxresearchdata.com.au/mint/Activities/detail/370b6786d85069d397a50fbc7cd2fb8f", "rdfs:type": ["owl:Thing"], "rdfs:label": "Robust Dynamical System Identification", "dc:title": "Robust Dynamical System Identification", "dc:description": "System identification is a pivotal component of any investigation that involves the estimation of unknown parameters of a given system. The overall goal of system identification is to obtain a mathematical model of the process under study using measurements, or observations, of the processes' inputs and outputs. This project is aimed at the development of new robust system identification methodologies and algorithms specifically targeted towards the identification of models for dynamical systems. The term robust is used here with respect to the initial errors in the hypothesis and the resulting errors in the estimates of the dynamical system.", "dc:identifier": "DP1095123", "grant_number": "DP1095123" } , { "result-metadata": { "relevance": 0.07723723, "all": {"storage_id":"5c7da761047a08749884ee9f4546ad61","id":"5c7da761047a08749884ee9f4546ad61","last_modified":"2024-01-29T01:52:48Z","dc_title":"Stochastic Modelling of Structural Facade Damage and Occupant Safety Risks Due to Explosive Blast Loading","autocomplete_title":"Stochastic Modelling of Structural Facade Damage and Occupant Safety Risks Due to Explosive Blast Loading","harvest_config":"d5d827c19d38bbb43ce6d4b448153ef1","harvest_rules":"96893c00809deeb167ba94aea970f350","autocomplete_grant_number":"DP0878347","display_type":"research_activities","security_filter":["guest"],"dc_date":["2008"],"repository_name":["ARC NGCP New and Ongoing Projects"],"oai_set":["Activities"],"packageType":["Activities"],"dc_format":["application\/x-mint-research-activity"],"dc_subject":["NSW"],"dc_description":["Terrorist or military induced explosive blast events can cause devastating damage and casualties to built infrastructure, particularly building facades. The project will develop stochastic models to predict the likelihood and extent of property damage, safety hazards and casualties to new and existing buildings and their occupants. A quantitative assessment of risks will allow the effectiveness of blast mitigation measures to be assessed to provide cost-effective levels of protection. Improved collateral damage estimation of risks from delivery of military ordnance allows damage and injuries to nearby civilians to be minimised."],"grant_number":["DP0878347"],"dc_identifier":["DP0878347"],"ID":["DP0878347"],"foaf_name":["The University of Newcastle"],"dc_date_submitted":["2007"],"repository_type":["Research Activities"],"harvestId":["DP0878347"],"score":0.07723723} }, "rdf:about": "https://demo.redboxresearchdata.com.au/mint/Activities/detail/5c7da761047a08749884ee9f4546ad61", "rdfs:type": ["owl:Thing"], "rdfs:label": "Stochastic Modelling of Structural Facade Damage and Occupant Safety Risks Due to Explosive Blast Loading", "dc:title": "Stochastic Modelling of Structural Facade Damage and Occupant Safety Risks Due to Explosive Blast Loading", "dc:description": "Terrorist or military induced explosive blast events can cause devastating damage and casualties to built infrastructure, particularly building facades. The project will develop stochastic models to predict the likelihood and extent of property damage, safety hazards and casualties to new and existing buildings and their occupants. A quantitative assessment of risks will allow the effectiveness of blast mitigation measures to be assessed to provide cost-effective levels of protection. Improved collateral damage estimation of risks from delivery of military ordnance allows damage and injuries to nearby civilians to be minimised.", "dc:identifier": "DP0878347", "grant_number": "DP0878347" } , { "result-metadata": { "relevance": 0.07723723, "all": {"storage_id":"7dfbf4b387d26aa1e1396276f7afe4d6","id":"7dfbf4b387d26aa1e1396276f7afe4d6","last_modified":"2024-01-29T01:52:47Z","dc_title":"Streamlining the dynamin epilepsy drug pipeline","autocomplete_title":"Streamlining the dynamin epilepsy drug pipeline","harvest_config":"d5d827c19d38bbb43ce6d4b448153ef1","harvest_rules":"96893c00809deeb167ba94aea970f350","autocomplete_grant_number":"DP1095780","display_type":"research_activities","security_filter":["guest"],"dc_date":["2010"],"repository_name":["ARC NGCP New and Ongoing Projects"],"oai_set":["Activities"],"packageType":["Activities"],"dc_format":["application\/x-mint-research-activity"],"dc_subject":["NSW"],"dc_description":["Epilepsy is a severe disease that makes it difficult for suffers to fully function in society. About a third of epileptics do not respond to any current anti-epileptic drugs. We have discovered a new target in the brain for a new concept in anti-epileptic drug design and have developed multiple inhibitors as candidate antiepileptic drugs. In this proposal we will identify the molecular properties of these drugs and use this as a platform to design much more potent inhibitors that target this protein. The results will open completely new avenues to design of the next generation of antiepileptic drugs with potential for broader action and fewer side-effects."],"grant_number":["DP1095780"],"dc_identifier":["DP1095780"],"ID":["DP1095780"],"foaf_name":["The University of Newcastle"],"dc_date_submitted":["2009"],"repository_type":["Research Activities"],"harvestId":["DP1095780"],"score":0.07723723} }, "rdf:about": "https://demo.redboxresearchdata.com.au/mint/Activities/detail/7dfbf4b387d26aa1e1396276f7afe4d6", "rdfs:type": ["owl:Thing"], "rdfs:label": "Streamlining the dynamin epilepsy drug pipeline", "dc:title": "Streamlining the dynamin epilepsy drug pipeline", "dc:description": "Epilepsy is a severe disease that makes it difficult for suffers to fully function in society. About a third of epileptics do not respond to any current anti-epileptic drugs. We have discovered a new target in the brain for a new concept in anti-epileptic drug design and have developed multiple inhibitors as candidate antiepileptic drugs. In this proposal we will identify the molecular properties of these drugs and use this as a platform to design much more potent inhibitors that target this protein. The results will open completely new avenues to design of the next generation of antiepileptic drugs with potential for broader action and fewer side-effects.", "dc:identifier": "DP1095780", "grant_number": "DP1095780" } , { "result-metadata": { "relevance": 0.07723723, "all": {"storage_id":"1c98ea8d971810e6f77941609d95e93e","id":"1c98ea8d971810e6f77941609d95e93e","last_modified":"2024-01-29T01:52:49Z","dc_title":"The Disproportionate Impact of Negative Contact on Category Salience and Prejudice: Explaining Why Intergroup Interactions Can Be Harmful","autocomplete_title":"The Disproportionate Impact of Negative Contact on Category Salience and Prejudice: Explaining Why Intergroup Interactions Can Be Harmful","harvest_config":"d5d827c19d38bbb43ce6d4b448153ef1","harvest_rules":"96893c00809deeb167ba94aea970f350","autocomplete_grant_number":"DP0770704","display_type":"research_activities","security_filter":["guest"],"dc_date":["2007"],"repository_name":["ARC NGCP New and Ongoing Projects"],"oai_set":["Activities"],"packageType":["Activities"],"dc_format":["application\/x-mint-research-activity"],"dc_subject":["NSW"],"dc_description":["The contact hypothesis predicts that social interactions between people of rival groups will reduce mutual prejudice and discrimination. This optimistic view is at odds with a worldwide resurgence of intergroup conflict. We will use eight social psychological experiments to test the novel prediction that intergroup contact is more likely to exacerbate, than reduce, intergroup conflict. With this research, (a) we apply the Australian-led self-categorization theory to the area of intergroup contact, (b) we highlight the risks of social interventions drawing from an intergroup model of contact, and (c) we inform policy makers about ways to minimize the risks of negative contact and ways to maximize the benefits of positive contact."],"grant_number":["DP0770704"],"dc_identifier":["DP0770704"],"ID":["DP0770704"],"foaf_name":["The University of Newcastle"],"dc_date_submitted":["2006"],"repository_type":["Research Activities"],"harvestId":["DP0770704"],"score":0.07723723} }, "rdf:about": "https://demo.redboxresearchdata.com.au/mint/Activities/detail/1c98ea8d971810e6f77941609d95e93e", "rdfs:type": ["owl:Thing"], "rdfs:label": "The Disproportionate Impact of Negative Contact on Category Salience and Prejudice: Explaining Why Intergroup Interactions Can Be Harmful", "dc:title": "The Disproportionate Impact of Negative Contact on Category Salience and Prejudice: Explaining Why Intergroup Interactions Can Be Harmful", "dc:description": "The contact hypothesis predicts that social interactions between people of rival groups will reduce mutual prejudice and discrimination. This optimistic view is at odds with a worldwide resurgence of intergroup conflict. We will use eight social psychological experiments to test the novel prediction that intergroup contact is more likely to exacerbate, than reduce, intergroup conflict. With this research, (a) we apply the Australian-led self-categorization theory to the area of intergroup contact, (b) we highlight the risks of social interventions drawing from an intergroup model of contact, and (c) we inform policy makers about ways to minimize the risks of negative contact and ways to maximize the benefits of positive contact.", "dc:identifier": "DP0770704", "grant_number": "DP0770704" } , { "result-metadata": { "relevance": 0.07723723, "all": {"storage_id":"81c2dc8c4effcf8118ba0cdac147dc85","id":"81c2dc8c4effcf8118ba0cdac147dc85","last_modified":"2024-01-29T01:52:48Z","dc_title":"The elutriation of ultrafine particles according to their density","autocomplete_title":"The elutriation of ultrafine particles according to their density","harvest_config":"d5d827c19d38bbb43ce6d4b448153ef1","harvest_rules":"96893c00809deeb167ba94aea970f350","autocomplete_grant_number":"DP1094769","display_type":"research_activities","security_filter":["guest"],"dc_date":["2010"],"repository_name":["ARC NGCP New and Ongoing Projects"],"oai_set":["Activities"],"packageType":["Activities"],"dc_format":["application\/x-mint-research-activity"],"dc_subject":["NSW"],"dc_description":["A new and powerful mechanism for separating particles on the basis of their density has been identified recently, limited to fine particles larger than 200 microns. The aim is to conduct a comprehensive experimental and theoretical investigation of the physical phenomena, and in turn extend the separation mechanism to cover so-called ultrafine particles less than 200 microns, using a centrifugal force. It is expected that the synergy arising from the new mechanism and use of a centrifugal force should lead to high separation efficiencies at very high feed rates, revolutionising the application of gravity separation in mineral processing."],"grant_number":["DP1094769"],"dc_identifier":["DP1094769"],"ID":["DP1094769"],"foaf_name":["The University of Newcastle"],"dc_date_submitted":["2009"],"repository_type":["Research Activities"],"harvestId":["DP1094769"],"score":0.07723723} }, "rdf:about": "https://demo.redboxresearchdata.com.au/mint/Activities/detail/81c2dc8c4effcf8118ba0cdac147dc85", "rdfs:type": ["owl:Thing"], "rdfs:label": "The elutriation of ultrafine particles according to their density", "dc:title": "The elutriation of ultrafine particles according to their density", "dc:description": "A new and powerful mechanism for separating particles on the basis of their density has been identified recently, limited to fine particles larger than 200 microns. The aim is to conduct a comprehensive experimental and theoretical investigation of the physical phenomena, and in turn extend the separation mechanism to cover so-called ultrafine particles less than 200 microns, using a centrifugal force. It is expected that the synergy arising from the new mechanism and use of a centrifugal force should lead to high separation efficiencies at very high feed rates, revolutionising the application of gravity separation in mineral processing.", "dc:identifier": "DP1094769", "grant_number": "DP1094769" } ] }