Architecture, Building and Planning - Research Publications

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    Place and Parametricism
    Roudavski, S ; Lee, V ; Burry, M ; Taylor, M ; Malpas, J (Real/Material/Ethereal: The 2nd Annual Design Research Conference, 2019)
    This project contributes to a broad range of design fields, especially architecture. The overarching project, also called Place and Parametricism, looks at qualitative and quantitative ways to represent and manage places. Within this theme, the focus of this exhibition is on the analysis of digitally held information and on design-research methods that can advance such research. The project: 1) develops an account of place that is useful in concrete design situations; 2) conducts a systematic examination of computational approaches to place; 3) creates and tests computational design tools that can advance place-oriented design; and 4) demonstrates the effectiveness of this toolkit. The exhibition specifically focuses on the demonstration of the methods and tools. In response to these aims, the project has conducted a range of design experiments. The investigators used these outputs for theory construction in collaborative multidisciplinary settings. The project has produced multiple outputs including contributions to theoretical understanding and practical design approaches. It produced novel teaching and learning strategies, demonstrated how computing can be used to unify multidisciplinary knowledge on place and disseminated the toolkit within relevant communities of practice. This recorded work has been selected for the exhibition within the Real/Material/Ethereal: The 2nd Annual Design Research Conference in 2019, the leading disciplinary research forum in Australia. The work is supported by the ARD DP170104010 grant and co-created with leaders in their fields. The publications are forthcoming, and the team are in an active discussion with the curators at the National Gallery of Victoria where this work will form a part of a major exhibition. The themes presented in the exhibition have been discussed in peer-reviewed publication, presented at conferences, and won awards for the excellence in research.
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    Place as Colour
    Roudavski, S ; Ward, W ; Burry, M ; Taylor, M ; Lee, V ; Malpas, J (Place and Paramericism Exhibition at Real/Material/Ethereal: The 2nd Annual Design Research Conference, 2019)
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    Trees as Places
    Roudavski, S ; Rutten, J ; Lee, V ; Burr, M ; Taylor, M ; Malpas, J (Place and Paramericism Exhibition at Real/Material/Ethereal: The 2nd Annual Design Research Conference, 2019)
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    Invisible Places
    Roudavski, S ; Lee, V ; Taylor, M ; Burry, M ; Malpas, J (Place and Paramericism Exhibition at Real/Material/Ethereal: The 2nd Annual Design Research Conference, 2019)
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    Sensing Place
    Roudavski, S ; Rutten, J ; Lee, V ; Burry, M ; Taylor, M ; Malpas, J (Place and Paramericism Exhibition at Real/Material/Ethereal: The 2nd Annual Design Research Conference, 2019)
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    An Urban Forest Horizon Scan in Melbourne, Australia. Report for the Clean Air and Urban Landscapes Hub
    Elliott, C ; Kendal, D ; Bush, J ; Leslie, G ; Oke, C ; Ramalho, C ; CAFFIN, M ; Croeser, T ; Entwistle, T ; Fastenrath, S ; Foley, A ; Jones, R ; Lee, V ; Livesley, S ; Ordonez, C ; Phillips, C ; Reid, D ; Rowe, H ; Shears, I ; Thom, J ; Williams, N ; Wilson, A ; Young, C (Clean Air and Urban Landscapes Hub, 2019)
    A horizon scanning workshop was held in Melbourne in June 2018, with participants from academia and institutions such as City of Melbourne, the Nursery and Garden Industry Victoria and the Royal Botanic Gardens Victoria. The workshop aimed to explore the future challenges, issues and opportunities for urban forests, in the context of climate change, urbanisation and demographic changes and uncertainties. Through a series of semi-structured activities, the following themes and future scenarios emerged as challenges and opportunities for Melbourne’s urban forest: • The urban forest is a term that is yet to be well defined in research and practice, but could form the basis of a diverse, inclusive and dynamic approach to urban vegetation management on public and private land, for a wide range of meanings, functions and services. • Data will be important for planning and managing the urban forest effectively, but will management focus narrow to the things that are easily measured, and devalue the many aspects of the urban forest that are difficult or impossible to quantify? • Technology will be more important, and genetic engineering could expand the urban forest’s functions and services to provision of glow-in-the-dark trees and air pollution filtration, but how will virtual nature and technological nature allow for the multi-dimensional sensory nature of human nature interactions? • Land use change in response to emerging technologies may generate new opportunities for urban greening. Fleets of autonomous cars may reduce the need for parking and distributed, wireless infrastructure could free up linear corridors, providing new space for the urban forest. Could flying cars free up roads, allowing us to “peel back the concrete”? • Risk aversion is a major brake on the urban forest, resulting in removal of large trees and limiting new plantings; will this lead to treeless, low-risk cities? Alternative futures may embrace risk, by giving urban dwellers the ‘dignity of risk’ or by mitigating risk in the built environment. • Participatory approaches to urban forest planning and management may recognise the multifunctional nature of the urban forest, and the heterogeneous communities that dwell in it. Yet how can we ensure good decision making and the inclusion of expert opinion? • Adapting the urban forest to changing community values and attitudes is needed for success, reducing inequity and increasing access to the urban forest by diverse communities. • Reconciliation between Indigenous and non-indigenous Australians will underpin increasing recognition and involvement of traditional owners in urban forest management. • The environment will continue to change, with increasing risks from hotter temperatures, rising sea levels and storm surges. Adapting to these changing conditions could also create unintended consequences if the effects of species change on urban forest meanings, services and ecologies are not well understood. The key recommendations for policy and management to better plan for the future urban forest are: • Manage and plan at the urban forest scale, rather than the individual tree scale. • Plan for future social and biophysical environments, rather than past ones. Learn from success and failure. • Increase diversity to reduce future risk – including genetic, species, age-class diversity, and cultural meaning. • Increase participation in urban forest decision making to better represent the diverse views of the community. • Foster capacity within land managers to better plan and manage the forest, through internal resourcing and collaboration across management authorities. • The multifunctional benefits of the urban forest need to be acknowledged and managed. • Facilitate acceptance of risk in the urban forest. New research questions to help smooth transition to future urban forests include: • Increase social science research on public opinions, attitudes and values of the urban forest and its management. • Understand the effects of artificial lighting on the urban forest. • How can we use the urban forest to reconnect people with nature, and increase the acceptability of risk from natural systems? • How can we have a dense city and an outstanding urban forest? • What will the outcome of using ‘climate ready’ tree species be on urban forest meanings and ecology? Understand the effects on the urban forest of other dimensions of global environmental change such as sea-level rise. • How can we secure water for irrigating the urban forest? • How will pests and diseases change in future environments and future regulatory environments e.g. banning insecticides.
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    The Spatial Planning of Australia’s Energy Landscape: An Assessment of Solar, Wind and Biomass Potential at the National Level
    Chen, S ; Lee, V (Herbert Wichmann Verlag, 2016)
    Spatially explicit assessment of renewable energy resources is critical for large scale landscape planning and design to maintain energy supply so that economic development and social advancement can be sustained. Renewable energy planning at the national level is pivotal to a nation’s socio-economic sustainability in the context of the oil crisis, anthropogenic climate change and the social and economic impacts of globalisation resulting in the international dispersal of energy supply and ownership. Using a case study from Australia, we investigate the annual spatial heterogeneity of solar energy potential across the country towards identifying the strengths and appropriate uses of spatial modelling for regional decision making in energy planning. The case study explores solar radiation distribution in Australia and its potential to supply energy at national, utility and household levels. This study demonstrates the usefulness for integrating these models in the design and planning process for carbon-neutral energy supply. It is also clear that the adoption of spatial modelling systems for solar supply also requires modelling of the political and social opportunities and limitations inherent in the solar landscape. This research advocates a holistic approach enabled by spatial planning through geodesign principles. We conclude with recommendations and guidance for future renewable energy planning as a useful practice for carbon emission reduction to climate change mitigation.