![]() To set the scene in this paper we firstly provide a brief review of the existing state of play of visualization and modelling tools available to urban planners in Australia. In this paper we describe the development of a new precinct planning tool known as the Envision Scenario Planner (ESP), which is being applied initially in two cities, Melbourne and Perth to assist in the urban design and planning of Greyfield sites. In the context of Australia there is significant urban growth occurring across the major cities and a need to provision planners and developers with precinct planning tools to assist in managing infill and the densification of the existing urban fabric in a carbon constrained economy. There are a number of tools in the domain of spatial planning and decision support systems that have been built over the last few decades but the uptake and use of these tools is somewhat limited. Policy and decision-makers are interested in the use of evidenced based approaches and tools that will support collaborative planning. Use of open source code and open standards such as X3D for 3D graphics interchange allow the project to explore advanced visualisation techniques while ensuring interoperability and data longevity.Īs the world is becoming increasingly urbanized there is a need for more sustainability-oriented planning of our cities. Interactive 3D visualisation of the model is facilitated by use of the 3map free geospace platform. Issues identified include the management of high-rise and superlot areas, crime mapping, community interactivity, internal and intergovernmental information sharing, interoperability and maintaining confidentiality and security of data. ![]() An information audit and survey has been conducted of the department’s resources and needs. The prototype SDSS attempts to address the specific challenges of providing better service for clients of the DoH. In the paper we will describe the development of the SDSS, the specific spatial problems challenging the DoH and the potential for the system to incorporate a range of social, financial and physical data, both internal and from other sources, for interaction and presentation in a three dimensional environment. This paper is reporting on a research project undertaken jointly between the University of New South Wales (UNSW) and the NSW Department of Housing (DoH) to develop a Spatial Decision Support System (SDSS) to assist planning, management and evaluation in areas of high public housing concentration. The paper concludes by identifying some future research directions in better connecting researchers and communicating science outcomes associated with climate change impact and adaptation. We will discuss some of the drivers for research in developing the ecoinformatics platform and its components. In this paper we will discuss the platform as it has been developed to support collaborative research and to inform stakeholders of the likely impacts of climate change in South West Victoria, Australia. The platform comprises a number of components including: (i) a metadata discovery tool to support modelling, (ii) a workflow engine for connecting climate change models, (iii) geographical visualisation tools for communicating landscape and farm impacts, (iv) a landscape object library for storing and sharing digital models, and (v) a landscape constructor tool to support participatory decision-making, and (vi) a virtual organisation for collaboration and sharing information. A multidisciplinary, cross-organisational approach is taken in developing adaptation strategies to deal with the `diabolical' policy problem of climate change. This includes resources for developers that will help to create new plugins and to use the new plugin points, as well as how to upgrade existing plugins.Ĭlick here for the full Confluence 4.0 release notes from Atlassian.Our research is focused on developing an ecoinformatics platform to support climate change adaptation in Victoria. There is a new landing page for Confluence 4.0 planning. New pages can still be created and existing pages can be overwritten. ![]() A script that reads or is attached to the primary existing pages will no longer work. You can find it in the Tools menu.Ītlassian disabled the getPage () and getBlogEntry () methods in the XML-RPC / SOAP API. Items can be added to the More menu in the editor.Īs support for plugin developers, developers can now view the storage format and Confluence administrators page now. ![]() There are no longer automatic displays of the first parameter. In placeholders, arbitrary parameters can now be selected. Also, images can be added instead of empty placeholders. Plugin developers can now add buttons to the Macro Property panel. ![]() Editor Plugin Improvements for Developers ![]()
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